RESUMEN
While induced pluripotent stem (iPS) cells are expected to be a cell source for regenerative medicine, they also have tumorigenic properties owing to their proliferative potential. During the manufacturing of regenerative medicine products, undifferentiated iPS cells and malignant transformed cells may be mixed in the cell culture population. Therefore, it is essential to eliminate tumorigenic cells selectively. In this study, a mixed culture of normal human fetal hepatocytes (Hc cells) and human hepatocellular carcinoma cells (HuH-7 cells) was used as a cell population model to be used as regenerative medicine products, and the selective elimination of HuH-7 cells by hybrid liposomes (HL) was analyzed. HL tended to fuse and accumulate more in HuH-7 cells due to larger fluidity of plasma membrane for HuH-7 cells than that for Hc cells. In a mixed culture of Hc and HuH-7 cells, HL selectively eliminated HuH-7 cells while allowing Hc cells to remain viable. In addition, HL treatment for the mixed culture of Hc and HuH-7 cells suppressed the tumorigenicity of HuH-7 cells. Therefore, HL selectively fused and accumulated in tumorigenic cells in a mixed cell culture of normal and tumorigenic cells, and eliminated tumorigenic cells while allowing normal cells to remain viable. The results of this study suggest the potential of HL in eliminating tumorigenic cells during the manufacturing of regenerative medicine products. Thus, HL could be expected to contribute to the development of safe regenerative medical products. Supplementary Information: The online version contains supplementary material available at 10.1007/s10616-023-00613-y.
RESUMEN
To avoid the risk of tumorigenesis after cell transplantation, tumorigenic stem cells should be selectively eliminated from induced pluripotent cells, embryonic stem cells, and somatic stem cells. We previously reported the presence of tumorigenic stem cells in human fetal hepatocyte-induced hepatoblasts after sodium butyrate (SB) treatment. In this study, we aimed to investigate the selective elimination of tumorigenic stem cells in human hepatoblasts using hybrid liposomes (HLs) prepared by sonicating a mixture of 90 mol% l-α-dimyristoylphosphatidylcholine and 10 mol% polyoxyethylene (n) dodecyl ether (C12 (EO)n, n = 23) in a buffer solution. Flow cytometric analysis revealed that the number of hepatoblasts increased by around 12-18 times in SB-treated cells compared to non-treated cells. In the colony formation assay, colonies of tumorigenic stem cells were observed in a soft agar plate after SB treatment. HL treatment for 48 h resulted in a remarkable decrease in the number of colonies. HLs also induced apoptosis of tumorigenic stem cells by activating caspase-3. Flow cytometry showed a significant accumulation of HLs, including fluorescent lipids, in tumorigenic hepatic stem cells. The reappearance of tumorigenic stem cells was suppressed even in subsequent subcultures of HL-treated cells. High CYP3A4 activity was observed in a three-dimensional in vitro assay. These results suggest that HL treatment could specifically eliminate tumorigenic hepatic stem cells. Incubation with HLs can be an effective culture method to maintain the quality of stem cells and reduce the risk of tumorigenesis after cell transplantation.